See where the field is responding and where it is not.

Omniterra Pulse maps uplift bowls, subsidence pockets, and trend breaks across reservoir, geothermal, and CCS footprints so teams can see where injection or production is changing the ground response, where behavior diverges from the field pattern, and which zones deserve subsurface follow-up.

Signal chain

Seasonal or injection-related uplift/subsidence + trend breaks + well or facility context -> response bowls, anomaly zones, injector-producer watchlists.

Business value

Track field response, focus subsurface follow-up, and produce monitoring outputs for operations, engineering, and regulator review.

01 / Problem

Subsurface response is wide-area, uneven, and easy to miss well by well.

Reservoir, geothermal, and storage fields do not respond as one surface. The issue is where uplift or subsidence concentrates, where response breaks across faults or infrastructure, and which zones warrant engineering or MRV follow-up before the field is treated as behaving uniformly.

Field scale

The response footprint is larger than any one pad or well.

Pressure change, uplift, and subsidence can distribute across a wide field while only a few areas actually diverge from the expected response.

Uneven behavior

Average field movement hides the anomalies that matter.

What matters most is often not the broad bowl. It is the pockets, breaks, and offsets that suggest response is concentrating differently than planned.

Assurance

Operations and regulators need mapped evidence, not just well curves.

The output has to connect field-scale deformation to wells, pads, and facilities in a form that can move into engineering, assurance, and MRV review.

02 / Solution

How Omniterra Pulse solves it.

Omniterra Pulse turns field-scale deformation into response zones, anomaly watchlists, and monitoring layers for operations and assurance teams.

What it finds

Response bowls, trend breaks, and anomaly zones

Map where uplift, subsidence, and trend changes cluster strongly enough to justify closer reservoir, geothermal, or storage review.

What your team gets

Field watchlists with well and facility context

Return mapped response zones, well or facility overlap, interpretation notes, and GIS-ready layers for field operations and engineering teams.

What decision it supports

Where to investigate, tune, or monitor more closely

Support the next decision about which parts of the field need pressure-management review, engineering follow-up, or denser monitoring.

Best fit

Best fit for this workflow.

Best when a reservoir, geothermal, or storage field needs a wide-area response map before production, injection, or assurance decisions are made.

Best for

Oil and gas reservoirs, geothermal fields, and CO2 storage sites

Best where injection or production changes ground response across a broad footprint and a few zones matter more than the field average.

Typical triggers

Injection changes, production shifts, plume assurance, and regulator reporting

Most useful when the field is already instrumented but teams need a surface response layer to decide where to look harder.

First pilot returns

Field response zones, anomaly watchlists, and GIS-ready monitoring layers

The first pilot returns a field-scale response map with the anomalies and overlap that deserve engineering or MRV follow-up first.

Delivery

Delivered as response bowls, anomaly watchlists, and GIS-ready monitoring layers.

Start with reservoir response.
Request a pilot.

Send one site and the operating question around reservoir response. We will reply with fit, timing, and a first Omniterra Pulse pilot scope.

The first step stays scoped: one site, one decision, one readable packet that supports the next inspection, maintenance, or monitoring choice.

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